Slider overcoat for noise reduction of TMR magnetic transducer

1. A hard disk drive slider comprising: an overcoat layer which covers an air-bearing surface of a slider, and covers an exposed surface of a tunneling magnetoresistance transducer; and an adhesion layer coupled with said overcoat layer and said air-bearing surface wherein said adhesion layer comprises a compound of nitrogen such that said compound of nitrogen reduces noise when reading data from said tunneling magnetoresistance transducer.

2. The hard disk drive slider of claim 1 wherein said tunneling magnetoresistance transducer comprises a first ferromagnetic lead.

3. The hard disk drive slider of claim 2 wherein said tunneling magnetoresistance transducer comprises a second ferromagnetic lead.

4. The hard disk drive slider of claim 1 wherein said tunneling magnetoresistance transducer comprises an insulator barrier containing a compound of oxygen.

5. The hard disk drive slider of claim 4 wherein said insulator barrier is selected from the group consisting of: stoichiometric magnesium oxide, titanium dioxide, and alumina.

6. The hard disk drive slider of claim 1 wherein said overcoat comprises carbon.

7. The hard disk drive slider of claim 1 wherein said adhesion layer comprises stoichiometric silicon nitride.

8. The adhesion layer of claim 7 wherein the atomic ratio of said silicon to said nitrogen in stoichiometric silicon nitride is between 0.7 and 0.9.

9. The adhesion layer of claim 7 wherein the resistivity of said adhesion layer is between 109 Ohm-cm and 1014 Ohm-cm.

10. The adhesion layer of claim 7 wherein the density of said adhesion layer is between of 2.95 g/cm3 to 3.15 g/cm3.

11. The adhesion layer of claim 7 wherein the hardness of said adhesion layer is between 18 GPa and 25 GPa.

12. A hard disk drive comprising: a base casting for providing coupling points for components and sub-assemblies of said hard disk drive; a motor-hub assembly to which at least one disk is coupled allowing rotation of said disk about an axis approximately perpendicular and centered to said disk, wherein said motor-hub assembly is coupled to said base casting, wherein said disk comprises at least one surface of data tracks; and a slider coupled to said base casting by means of a suspension and an actuator whereby said slider is arcuately moved across said data tracks, wherein said slider comprises: an overcoat layer which covers an air-bearing surface of said slider, and covers an exposed surface of a tunneling magnetoresistance transducer; and an adhesion layer coupled to said overcoat layer and said air-bearing surface wherein said adhesion layer comprises a compound of nitrogen whereby said compound of nitrogen reduces noise in read data from said tunneling magnetoresistance transducer.

13. The hard disk drive of claim 12 wherein said tunneling magnetoresistance transducer comprises a first ferromagnetic lead.

14. The hard disk drive of claim 13 wherein said tunneling magnetoresistance transducer comprises a second ferromagnetic lead.

15. The hard disk drive of claim 12 wherein said tunneling magnetoresistance transducer comprises an insulator barrier containing a compound of oxygen.

16. The hard disk drive of claim 15 wherein said insulator barrier is selected from the group consisting of: stoichiometric magnesium oxide, titanium dioxide, and alumina.

17. The hard disk drive of claim 12 wherein said overcoat comprises carbon.

18. The hard disk drive of claim 12 wherein said adhesion layer comprises stoichiometric silicon nitride.

19. The adhesion layer of claim 18 wherein the atomic ratio of said silicon to said nitrogen in stoichiometric silicon nitride is between 0.7 and 0.9.

20. The adhesion layer of claim 18 wherein the resistivity of said adhesion layer is between 109 Ohm-cm and 1014 Ohm-cm.

21. The adhesion layer of claim 18 wherein the density of said adhesion layer is between of 2.95 g/cm3 to 3.15 g/cm3.

22. The adhesion layer of claim 18 wherein the hardness of said adhesion layer is between 18 GPa and 25 GPa.